Angular momentum and arboreal stability in common marmosets (<scp>C</scp>allithrixjacchus)

Chadwell, Brad A.; Young, Jesse W.

doi:10.1002/ajpa.22683

Cited by 31 publications

(59 citation statements)

References 67 publications

(81 reference statements)

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“…We measured compliance at the two ends of the platform to better model the material properties the marmosets experienced during their initial contact with the compliant platform at the start of each stride (see Movie 1 for an exemplar stride). We used existing data on marmoset locomotor kinetics (Chadwell and Young, 2015) to select biologically reasonable control parameters, loading the platform linearly at a rate of 3 mm s −1 to a maximum force of 11 N. Loading and displacement were linearly related (R 2 ≥0.999). Average compliance of the platform ends over 10 repetitions was 1.39 mm N −1 (Table 1), with some variation between the two ends (1.31 versus 1.46 mm N −1 ).…”

Section: Substrate Constructionmentioning

confidence: 99%

“…To quantify the 3D displacement of the animal and the compliant substrate during locomotion, we calibrated the synchronized video images from the four cameras to the same 3D coordinate system using published methods (Standen and Lauder, 2005;Chadwell and Young, 2015). In our final coordinate system, the x-axis was set to be coincident with the long axis of the pole substrate (i.e.…”

Section: Kinematic Calibration and Analysesmentioning

confidence: 99%

“…We estimated pCoM empirically for each animal using the reaction board method (Lammers et al, 2006;Larson and Demes, 2011;Young, 2012a,b;Chadwell and Young, 2015). In this procedure, a rigid lightweight board is supported by two nails resting on a platform at one end and a single nail resting on a scale at the other.…”

Section: Kinematic Calibration and Analysesmentioning

confidence: 99%

“…Marmoset gait patterns are also atypical among primates. Though marmosets most frequently use asymmetrical galloping/ bounding gaits (Young, 2009;Chadwell and Young, 2015), when walking they often use trotting or lateral sequence patterns of coordination (Schmitt, 2003b), versus the diagonal sequence patterns that are typical of most other primates (Hildebrand, 1967). Nevertheless, despite their uniqueness among primates, marmosets and other callitrichines have converged on the general morphotype thought to characterize early euprimate evolution (i.e.…”

Section: Introductionmentioning

confidence: 99%

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Effects of support diameter and compliance on common marmoset (Callithrix jacchus) gait kinematics

Young

Stricklen

Chadwell

2016

Journal of Experimental Biology

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Locomotion is precarious in an arboreal habitat, where supports can vary in both diameter and level of compliance. Several previous studies have evaluated the influence of substrate diameter on the locomotor performance of arboreal quadrupeds. The influence of substrate compliance, however, has been mostly unexamined. Here, we used a multifactorial experimental design to investigate how perturbations in both diameter and compliance affect the gait kinematics of marmosets (Callithrix jacchus; N=2) moving over simulated arboreal substrates. We used 3D-calibrated video to quantify marmoset locomotion over a horizontal trackway consisting of variably sized poles (5, 2.5 and 1.25 cm in diameter), analyzing a total of 120 strides. The central portion of the trackway was either immobile or mounted on compliant foam blocks, depending on condition. We found that narrowing diameter and increasing compliance were both associated with relatively longer substrate contact durations, though adjustments to diameter were often inconsistent relative to compliance-related adjustments. Marmosets also responded to narrowing diameter by reducing speed, flattening center of mass (CoM) movements and dampening support displacement on the compliant substrate. For the subset of strides on the compliant support, we found that speed, contact duration and CoM amplitude explained >60% of the variation in substrate displacement over a stride, suggesting a direct performance advantage to these kinematic adjustments. Overall, our results show that compliant substrates can exert a significant influence on gait kinematics. Substrate compliance, and not just support diameter, should be considered a critical environmental variable when evaluating locomotor performance in arboreal quadrupeds.

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Section: Substrate Constructionmentioning

confidence: 99%

Section: Kinematic Calibration and Analysesmentioning

confidence: 99%

Section: Kinematic Calibration and Analysesmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Effects of support diameter and compliance on common marmoset (Callithrix jacchus) gait kinematics

Young

Stricklen

Chadwell

2016

Journal of Experimental Biology

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“…69 The degeneration of TAAR gene repertoires likely began in the common ancestor of Euarchonta and is highly likely to be related to arboreal living. 20,70,71 Living in trees significantly reduces exposure to predators and facilitates escape from ground-living predators. They have already lost TAAR1 and TAAR7.…”

Section: The Degeneration Of Taar Gene Repertoires In Euarchontamentioning

confidence: 99%

Accelerated pseudogenization of trace amine‐associated receptor genes in primates

Eyun

2019

Genes Brain and Behavior

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Trace amines (TAs) in the mammalian brain have been investigated for four decades. Trace amine‐associated receptors (TAARs) were discovered during the search for receptors activated by TAs. TAARs are considered a second class of vertebrate olfactory receptors and successfully proliferated in conjunction with adaptation to living on the ground to detect carnivore odors. Thus, therian mammals have a high number of TAAR genes due to rapid species‐specific gene duplications. In primate lineages, however, their genomes have significantly smaller numbers of TAAR genes than do other mammals. To elucidate the evolutionary force driving these patterns, exhaustive data mining of TAAR genes was performed for 13 primate genomes (covering all four infraorders) and two nonprimate euarchontan genomes. This study identified a large number of pseudogenes in many of these primate genomes and thus investigated the pseudogenization event process for the TAAR repertoires. The degeneration of TAARs is likely associated with arboreal inhabitants reducing their exposure to carnivores, and this was accelerated by the change in the nose shape of haplorhines after their divergence from strepsirrhines. Arboreal life may have decreased the reliance on the chemosensing of predators, suggestive of leading to the depauperation of TAAR subfamilies. The evolutionary deterioration of TAARs in primates has been reestablished in recently derived primates due to high selection pressure and probably functional diversity.

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Chimpanzee ankle and foot joint kinematics: Arboreal versus terrestrial locomotion

Holowka

O’Neill

Thompson

et al. 2017

American J Phys Anthropol

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Angular momentum and arboreal stability in common marmosets (Callithrixjacchus)

Cited by 31 publications

References 67 publications

Effects of support diameter and compliance on common marmoset (Callithrix jacchus) gait kinematics

Effects of support diameter and compliance on common marmoset (Callithrix jacchus) gait kinematics

Accelerated pseudogenization of trace amine‐associated receptor genes in primates

Chimpanzee ankle and foot joint kinematics: Arboreal versus terrestrial locomotion

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